#ifndef XRPL_TX_XCHAINBRIDGE_H_INCLUDED
#define XRPL_TX_XCHAINBRIDGE_H_INCLUDED

#include <xrpld/app/tx/detail/Transactor.h>

#include <xrpl/protocol/XChainAttestations.h>

namespace ripple {

constexpr size_t xbridgeMaxAccountCreateClaims = 128;

// Attach a new bridge to a door account. Once this is done, the cross-chain
// transfer transactions may be used to transfer funds from this account.
class XChainCreateBridge : public Transactor
{
public:
    static constexpr ConsequencesFactoryType ConsequencesFactory{Normal};

    explicit XChainCreateBridge(ApplyContext& ctx) : Transactor(ctx)
    {
    }

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

class BridgeModify : public Transactor
{
public:
    static constexpr ConsequencesFactoryType ConsequencesFactory{Normal};

    explicit BridgeModify(ApplyContext& ctx) : Transactor(ctx)
    {
    }

    static std::uint32_t
    getFlagsMask(PreflightContext const& ctx);

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

using XChainModifyBridge = BridgeModify;

//------------------------------------------------------------------------------

// Claim funds from a `XChainCommit` transaction. This is normally not needed,
// but may be used to handle transaction failures or if the destination account
// was not specified in the `XChainCommit` transaction. It may only be used
// after a quorum of signatures have been sent from the witness servers.
//
// If the transaction succeeds in moving funds, the referenced `XChainClaimID`
// ledger object will be destroyed. This prevents transaction replay. If the
// transaction fails, the `XChainClaimID` will not be destroyed and the
// transaction may be re-run with different parameters.
class XChainClaim : public Transactor
{
public:
    // Blocker since we cannot accurately calculate the consequences
    static constexpr ConsequencesFactoryType ConsequencesFactory{Blocker};

    explicit XChainClaim(ApplyContext& ctx) : Transactor(ctx)
    {
    }

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

//------------------------------------------------------------------------------

// Put assets into trust on the locking-chain so they may be wrapped on the
// issuing-chain, or return wrapped assets on the issuing-chain so they can be
// unlocked on the locking-chain. The second step in a cross-chain transfer.
class XChainCommit : public Transactor
{
public:
    static constexpr ConsequencesFactoryType ConsequencesFactory{Custom};

    static TxConsequences
    makeTxConsequences(PreflightContext const& ctx);

    explicit XChainCommit(ApplyContext& ctx) : Transactor(ctx)
    {
    }

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

//------------------------------------------------------------------------------

// Create a new claim id owned by the account. This is the first step in a
// cross-chain transfer. The claim id must be created on the destination chain
// before the `XChainCommit` transaction (which must reference this number) can
// be sent on the source chain. The account that will send the `XChainCommit` on
// the source chain must be specified in this transaction (see note on the
// `SourceAccount` field in the `XChainClaimID` ledger object for
// justification). The actual sequence number must be retrieved from a validated
// ledger.
class XChainCreateClaimID : public Transactor
{
public:
    static constexpr ConsequencesFactoryType ConsequencesFactory{Normal};

    explicit XChainCreateClaimID(ApplyContext& ctx) : Transactor(ctx)
    {
    }

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

//------------------------------------------------------------------------------

// Provide attestations from a witness server attesting to events on
// the other chain. The signatures must be from one of the keys on the door's
// signer's list at the time the signature was provided. However, if the
// signature list changes between the time the signature was submitted and the
// quorum is reached, the new signature set is used and some of the currently
// collected signatures may be removed. Also note the reward is only sent to
// accounts that have keys on the current list.
class XChainAddClaimAttestation : public Transactor
{
public:
    // Blocker since we cannot accurately calculate the consequences
    static constexpr ConsequencesFactoryType ConsequencesFactory{Blocker};

    explicit XChainAddClaimAttestation(ApplyContext& ctx) : Transactor(ctx)
    {
    }

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

class XChainAddAccountCreateAttestation : public Transactor
{
public:
    // Blocker since we cannot accurately calculate the consequences
    static constexpr ConsequencesFactoryType ConsequencesFactory{Blocker};

    explicit XChainAddAccountCreateAttestation(ApplyContext& ctx)
        : Transactor(ctx)
    {
    }

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

//------------------------------------------------------------------------------

// This is a special transaction used for creating accounts through a
// cross-chain transfer. A normal cross-chain transfer requires a "chain claim
// id" (which requires an existing account on the destination chain). One
// purpose of the "chain claim id" is to prevent transaction replay. For this
// transaction, we use a different mechanism: the accounts must be claimed on
// the destination chain in the same order that the `XChainCreateAccountCommit`
// transactions occurred on the source chain.
//
// This transaction can only be used for XRP to XRP bridges.
//
// IMPORTANT: This transaction should only be enabled if the witness
// attestations will be reliably delivered to the destination chain. If the
// signatures are not delivered (for example, the chain relies on user wallets
// to collect signatures) then account creation would be blocked for all
// transactions that happened after the one waiting on attestations. This could
// be used maliciously. To disable this transaction on XRP to XRP bridges, the
// bridge's `MinAccountCreateAmount` should not be present.
//
// Note: If this account already exists, the XRP is transferred to the existing
// account. However, note that unlike the `XChainCommit` transaction, there is
// no error handling mechanism. If the claim transaction fails, there is no
// mechanism for refunds. The funds are permanently lost. This transaction
// should still only be used for account creation.
class XChainCreateAccountCommit : public Transactor
{
public:
    static constexpr ConsequencesFactoryType ConsequencesFactory{Normal};

    explicit XChainCreateAccountCommit(ApplyContext& ctx) : Transactor(ctx)
    {
    }

    static NotTEC
    preflight(PreflightContext const& ctx);

    static TER
    preclaim(PreclaimContext const& ctx);

    TER
    doApply() override;
};

using XChainAccountCreateCommit = XChainCreateAccountCommit;

//------------------------------------------------------------------------------

}  // namespace ripple

#endif
